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I would like to average each element in array, arr, based on the elements immediately around it (including the current element) and store the new values in a different array.

For example, given the following array, arr, the first element in newarr would be the average of the values 92, 99, 98, and 80. The third element would be the average of 99, 1, 8, 80, 7,and 14.

Is there a faster way to do this than using several if statements in a for loop to check for corner and edge boundaries indicating the need to omit indices because they don't exist?

arr =

    92    99     1     8    15    67    74    51    58    40
    98    80     7    14    16    73    55    57    64    41
     4    81    88    20    22    54    56    63    70    47
    85    87    19    21     3    60    62    69    71    28
    86    93    25     2     9    61    68    75    52    34
    17    24    76    83    90    42    49    26    33    65
    23     5    82    89    91    48    30    32    39    66
    79     6    13    95    97    29    31    38    45    72
    10    12    94    96    78    35    37    44    46    53
    11    18   100    77    84    36    43    50    27    59
5
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    I'm assuming you'll want to do this based on first principles. The duplicate post will give you that. However, you can easily do this with 2D convolution: out = conv2(arr, (1/9)*ones(3,3), 'same');
    – rayryeng
    Nov 13, 2015 at 19:40
  • This divides the first element by 9 instead of 4, which is the number of elements I'm trying to average (when looking at the first element: 92, 99, 98, and 80). However, for an inner element, dividing by 9 is correct. Nov 13, 2015 at 19:52
  • OK, I can reopen, but I have a couple of questions for you: (1) Do you have the image processing toolbox? (2) What version of MATLAB do you have?
    – rayryeng
    Nov 13, 2015 at 19:59
  • No need to reopen. I'm going to use your convolution solution in several steps: divide by 4when at the corners, divide by 6 when on the sides, and divide by 9 when in the middle. Nov 13, 2015 at 20:20
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    Sounds good! Yes, what you can do is along the corners, make sure you multiply by 9/4 to undo the division by 9, but then divide by 4. Along the sides, multiply by 9/6... so you can still use the convolution solution as I mentioned, but do this extra pre-processing to ensure things are correct.
    – rayryeng
    Nov 13, 2015 at 20:29

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